1.Misdiagnosis of Talar Body or Neck Fractures as Ankle Sprains in Low Energy Traumas.
Ki Won YOUNG ; Young Uk PARK ; Jin Su KIM ; Hun Ki CHO ; Ho Sik CHOO ; Jang Ho PARK
Clinics in Orthopedic Surgery 2016;8(3):303-309
BACKGROUND: The talus has a very complex anatomical morphology and is mainly fractured by a major force caused by a fall or a traffic accident. Therefore, a talus fracture is not common. However, many recent reports have shown that minor injuries, such as sprains and slips during sports activities, can induce a talar fracture especially in the lateral or posterior process. Still, fractures to the main parts of the talus (neck and body) after ankle sprains have not been reported as occult fractures. METHODS: Of the total 102 cases from January 2005 to December 2012, 7 patients had confirmed cases of missed/delayed diagnosis of a talus body or neck fracture and were included in the study population. If available, medical records, X-rays, computed tomography scans, and magnetic resonance imaging of the confirmed cases were retrospectively reviewed and analyzed. RESULTS: In the 7-patient population, there were 3 talar neck fractures and 4 talar body fractures (coronal shearing type). The mechanisms of injuries were all low energy trauma episodes. The causes of the injuries included twisting of the ankle during climbing (n = 2), jumping to the ground from a 1-m high wall (n = 2), and twisting of the ankle during daily activities (n = 3). CONCLUSIONS: A talar body fracture and a talar neck fracture should be considered in the differential diagnosis of patients with acute and chronic ankle pain after a minor ankle injury.
Adult
;
Ankle Fractures/*diagnosis/diagnostic imaging
;
Ankle Injuries/*diagnosis/diagnostic imaging
;
Diagnosis, Differential
;
Female
;
Humans
;
Magnetic Resonance Imaging
;
Male
;
Middle Aged
;
Radiography
;
Retrospective Studies
;
Sports
;
Talus/diagnostic imaging/*injuries
;
Young Adult
2.Acquired Flat Foot due to Rupture of Posterior Tibial Tendon: Two case reports.
Journal of the Korean Academy of Rehabilitation Medicine 1997;21(5):1024-1029
The posterior tibial muscle is considered a plantar flexor as well as an invertor of the foot, which acts as a key muscle to the medial longitudinal arch by locking the talar joints in normal gait. Rupture of the posterior tibial tendon can cause a valgus deformity of the hindfoot and an abduction deformity of the forefoot which produces a typical flat foot and a talar dislocation in severe cases. The tendon of posterior tibial muscle can be ruptured spontaneously after the age of 40 from chronic stress at the ankle joint, or by sports injury and trauma. Severe foot deformity which can be prevented by early diagnosis and appropriate treatment often occurs from misdiagnosis as a chronic ankle sprain or a congenital flat foot. We report two cases of foot deformities caused by spontaneous and traumatic rupture of posterior tibial tendons with their clinical manifestations and MRI findings.
Ankle Injuries
;
Ankle Joint
;
Athletic Injuries
;
Congenital Abnormalities
;
Diagnostic Errors
;
Dislocations
;
Early Diagnosis
;
Flatfoot*
;
Foot
;
Foot Deformities
;
Gait
;
Joints
;
Magnetic Resonance Imaging
;
Rupture*
;
Tendons*
3.Image analysis of avulsion fracture, permanent osteoepiphyte, sesamoid and accessory bones.
Peng WANG ; Guang-you ZHU ; Li-hua FAN ; Yi-bin CHENG ; Xiao LU ; Da-an DONG ; Yan SHEN ; Xin-lei WANG
Journal of Forensic Medicine 2007;23(5):335-337
OBJECTIVE:
To investigate a method to distinguish avulsion fracture from sesamoid, accessory bone, and permanent osteoepiphyte.
METHODS:
Fourteen cases of suspicious avulsion fractures of articular portion of tubular bones were reviewed. Direct/indirect signs and the injury mechanism of avulsion fractures were analyzed and compared with permanent osteoepiphyte, sesamoid and accessory bones for their morphological characteristics.
RESULTS:
There are two cases of permanent osteoepiphytes, three cases of sesamoids, and three cases of accessory bones. These cases were characterized by smooth edges, contiguous bony cortex, without swelling of the surrounding soft tissue or obvious image changes after consecutive radiography.
CONCLUSION
It is fundamental in image analysis to distinguish avulsion fracture from physiological small osteoepiphyte, sesamoid bone, and aberrant accessory bone.
Adolescent
;
Adult
;
Ankle Injuries/diagnostic imaging*
;
Child
;
Diagnosis, Differential
;
Epiphyses/diagnostic imaging*
;
Epiphyses, Slipped/diagnostic imaging*
;
Female
;
Forensic Medicine
;
Fractures, Bone/diagnostic imaging*
;
Humans
;
Knee Injuries/diagnostic imaging*
;
Male
;
Middle Aged
;
Retrospective Studies
;
Sesamoid Bones/diagnostic imaging*
;
Shoulder Fractures/diagnostic imaging*
;
Tomography, X-Ray Computed
;
Young Adult